UMLS:C0243026 - FACTA Search

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Query: UMLS:C0243026 (sepsis)
52,417 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

The accurate quantitation of picogram amounts of TNF is possible by ELISA and is useful in many areas of biomedical research, including studies of TNF release in vitro by stimulated lymphocytes and macrophages, and of serum levels in patients with cancer and sepsis. However, we show in this report that the detection of recombinant TNF standards by ELISA falls over time with incubation at 37 degrees C, and is further decreased when incubated with tumor infiltrating lymphocytes (TIL), making accurate quantitation difficult. We demonstrate that the soluble dimeric form of the TNF receptor can prevent this decrease, both in the presence and absence of TIL. In contrast, the soluble monomeric TNF receptor was much less effective in preventing this decrease. In addition, the dimeric but not the monomeric TNF receptor was found to inhibit bioactivity of TNF as measured by L929 cytotoxicity. The dimeric TNF receptor does not interfere with the detection of recombinant TNF standards by ELISA, and entirely stabilizes TNF levels incubated over 48 h at 37 degrees C in the presence and absence of TIL. This protection is specific, and the TNF receptor does not stabilize interferon-gamma. The dimeric form of the soluble TNF receptor has proven useful in detecting TNF released by TIL transduced with the TNF cDNA that are currently being used in studies of the gene therapy of cancer with TIL. The dimeric TNF receptor may also prove useful in the accurate quantitation of TNF released by stimulated lymphocytes and macrophages in vitro, and in the quantitation of serum TNF levels in patients.
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PMID:Use of soluble recombinant TNF receptor to improve detection of TNF secretion in cultures of tumor infiltrating lymphocytes. 132 Nov 99

Although hemorrhage depresses splenocyte (SPL) functions and increases susceptibility to sepsis, it is not known whether increased tumor necrosis factor (TNF) or prostaglandin (PG) production are responsible for it. To study this, mice (C3H/HeN) were bled to a mean blood pressure of 35 mm Hg, maintained at that pressure for 60 min, resuscitated, and treated with ibuprofen (1.0 mg/kg body weight) or vehicle (saline). Hemorrhage reduced (P less than 0.05) SPL proliferation by 60%, SPL release of interleukin-2 (IL-2) by 47%, interferon-gamma (IFN-gamma) by 67%, TNF by 54%, and interleukin-6 (IL-6) by 46% compared to sham. In addition, splenic macrophage (sM phi) release of interleukin-1 (IL-1) and TNF was decreased by 58 and 67% (P less than 0.05), respectively. However, ibuprofen treatment increased (P less than 0.05) SPL proliferation, lymphokine (IL-2, IFN-gamma, and IL-6) synthesis, and IL-1 release by sM phi compared to hemorrhage alone. Furthermore, ibuprofen enhanced the release of TNF by SPL (+175%, P less than 0.05) and sM phi (+68%) compared to the vehicle group. Ibuprofen also decreased (P = 0.011) the susceptibility to sepsis following hemorrhage. These results indicate that PGs are involved in hemorrhage-induced suppression of cellular immunity and in the increased mortality of such animals following a septic challenge.
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PMID:Ibuprofen restores cellular immunity and decreases susceptibility to sepsis following hemorrhage. 140 92

Interleukin-1 alpha (IL-1 alpha) produced alterations in human dermal fibroblast glucose metabolism in vitro of the type seen in severe sepsis in man. Glycolysis and glucose uptake were increased but the oxidation of glucose within the tricarboxylic acid (TCA) cycle was reduced. The combined addition of tumour necrosis factor alpha (TNF alpha) with interferon-gamma (IFN-gamma) similarly increased the dependency for cellular energy provision from an oxidative to the glycolytic state. These cytokine-induced changes in glucose metabolism were unaffected when prostaglandin production was inhibited with a cyclo-oxygenase inhibitor, but were significantly reduced by the steroid dexamethasone. Thus, the inflammatory cytokines IL-1 and TNF alpha reportedly detected in the circulation during severe sepsis may directly affect not only glucose uptake but also its subsequent metabolism within tissue fibroblasts.
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PMID:Inflammatory cytokines stimulate glucose uptake and glycolysis but reduce glucose oxidation in human dermal fibroblasts in vitro. 151

Lipopolysaccharide (LPS) from Salmonella typhosa was injected into C57B1/6 mice and the effect on bone marrow (BM) natural suppressor (NS) cell activity was examined. It was shown that injection of LPS, as low as 0.01 microgram/g body weight, could enhance BM NS activity. The enhanced activity was apparent 24 hr postinjection, and returned to normal by Day 5. It was necessary to show that the enhanced suppression displayed characteristics of NS cells. The suppressor cell is Thy negative and can be found in low density Percoll fractions. Suppression was dependent upon interferon-gamma and could be augmented by lymphokines that were contained in the supernatant of TH2 helper cell. The data suggest that BM NS activity may be influenced in vivo during gram-negative sepsis.
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PMID:LPS activation of bone marrow natural suppressor cells. 153 72

To study the role of interferon-gamma (IFN-gamma) in gram-negative shock, mortality was compared in mice receiving either a monoclonal antibody to IFN-gamma (H22) or an irrelevant monoclonal antibody (L2-3D9) before or after an LD90 dose of Escherichia coli O111:B4. H22 given either 1 h before or 0.5 h after bacterial challenge protected mice from death (mortality at 48 h, 28% vs. 83%, P less than .001). Serum tumor necrosis factor-alpha (TNF alpha) levels and bacterial counts in blood and organs (liver, spleen, heart, and brain) were similar in H22-treated animals and controls. The peak serum TNF alpha levels were 95.7 +/- 16.4 ng/mL and 80.7 +/- 14.9 ng/mL in the H22 and control groups, respectively. These results indicate that IFN-gamma plays a significant role in the pathogenesis of gram-negative sepsis.
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PMID:Role of interferon-gamma in experimental gram-negative sepsis. 163 4

Protein-calorie malnutrition (PCM) impairs immune responsiveness predisposing to Candida albicans sepsis, but mechanisms are unclear. This study examined the effect of PCM on enteric-derived C. albicans intestinal translocation and the ability of in vivo interferon-gamma (IFN-gamma) to upregulate macrophage (MO) candidacidal mechanisms in PCM mice. Control (24% casein) and low protein (2.5%) diets were given for 4 weeks. Mice (n = 160) were fed C. albicans in their drinking water for 3 days and C. albicans translocation (mean colony-forming units (CFU)/g tissue +/- SEM) to the GI tract, liver, spleen, and kidney was assessed at 1 and 5 days following endotoxin challenge of 1, 5, and 10 mg/kg body wt. In a separate study (n = 100 mice), IFN-gamma (1000-10,000 U/day ip) vs saline was given for 3 days prior to harvesting peritoneal macrophages for assay of superoxide anion (O2-), percentage macrophage phagocytosis of C. albicans, and percentage killing of C. albicans. On Day 1, fungal translocation to the intestinal wall and systemic organs in the PCM group was significantly higher. On Day 5, mean CFU were significantly higher in the PCM group, indicating impaired organ clearance. Mean O2-, phagocytosis, and killing were significantly impaired in the PCM group (P less than 0.05), but IFN-gamma improved all functions. PCM significantly depressed host responses to C. albicans. IFN-gamma treatment enhanced candidacidal mechanisms, suggesting a therapeutic role in the malnourished host predisposed to C. albicans sepsis.
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PMID:Protein-calorie malnutrition impairs host defense against Candida albicans. 164 10

Interferon-gamma and other cytokines enhance macrophage (M phi) antimicrobial function and have been considered for therapeutic use in sepsis. Systemic sequelae of macrophage activation, however, are unclear. This study examined the effects of M phi activating cytokines (interferon-gamma [IFN-gamma] and interleukin-4 [IL-4]) and monoclonal antibodies directed against these cytokines in modulating the acute septic response. CFW/Swiss Webster mice (n = 345) received endotoxin (lipopolysaccharide [LPS]: 60 mg/kg body weight intraperitoneally) and were randomized to five treatment groups: IFN-gamma (10(4) units), IL-4 (10(4) units), IgG1 isotype antibody (TRFK5: 200 micrograms), anti-IFN-gamma (200 micrograms), or anti-IL-4 (200 micrograms) monoclonal antibodies (MAbs) given simultaneously or 2 hours after LPS. Animals were divided into two groups and studied for mortality or measurement of peritoneal M phi superoxide anion release (O2-), tumor necrosis factor (TNF), and IL-6 production 6 hours after administration of LPS +/- experimental regimens. Serum TNF and IL-6 also were assessed at 2 and 4 hours after LPS, respectively. Administration of LPS resulted in a 27% survival compared with 10% in the IFN-gamma and 13% in the IL-4 groups. Treatment with anti-IFN-gamma offered protection against LPS lethality (93%-100% survival, p less than 0.001 vs. other groups) when given either simultaneously or 2 hours after LPS. Anti-IFN-gamma also significantly decreased PM phi O-2 and TNF release. Thus anti-IFN-gamma may have an important role in the modulation of the acute septic response.
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PMID:Inhibition of macrophage-activating cytokines is beneficial in the acute septic response. 165 39

Although it is known that interferon-gamma synthesis and macrophage functions are depressed after hemorrhage, it remains to be determined whether systemic administration of interferon-gamma has any effect on hemorrhage-induced depression of macrophage and splenocyte functions. To study this, C3H/HEN mice were bled to a mean blood pressure of 35 mm Hg, maintained for 60 minutes, and followed by adequate fluid resuscitation. The mice then received either 1000 units interferon-gamma or saline solution (vehicle). Peritoneal (pM phi) and splenic (sM phi) macrophages and splenocytes were isolated 24 hours later. PM phi antigen presentation was measured by coculturing pM phi with the D10.G4.1 cell clone. Major histocompatibility complex class II (Ia) antigen expression was determined by direct immunofluorescence. Cytokine release by pM phi, sM phi, and splenocytes was assessed with specific bioassays. For survival studies, mice were subjected to sepsis 3 days after hemorrhage. Treatment with interferon-gamma restored (p less than or equal to 0.05) hemorrhage-induced suppression of pM phi antigen presentation capacity and Ia antigen expression and increased (p less than or equal to 0.05) interleukin-1 and tumor necrosis factor release by pM phi and sM phi, as well as splenocyte proliferation (p less than or equal to 0.05). Interferon-gamma also decreased (p less than or equal to 0.007) the susceptibility to sepsis after hemorrhage. Thus interferon-gamma represents a potent agent for treating hemorrhagic shock-induced immunosuppression and for increasing the ability of the host defense system to combat bacterial infections after hemorrhage.
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PMID:Interferon-gamma attenuates hemorrhage-induced suppression of macrophage and splenocyte functions and decreases susceptibility to sepsis. 173 88

To evaluate immune cell activation in patients with melioidosis, serum samples were assayed for interferon-gamma (IFN-gamma), soluble interleukin-2 receptors (sIL-2R), and soluble CD8 protein (sCD8). Forty patients with sepsis (23 fatal cases, 17 survivors) and 13 with localized disease were studied during acute illness; 12 additional patients were studied after discharge while on maintenance antimicrobial therapy. Serum concentrations of IFN-gamma and sIL-2R were greatly elevated, but sCD8 concentrations were not. These levels increased with disease severity and were associated with fatal outcomes. Macrophage activation by high concentrations of the cytokine IFN-gamma may contribute to pathophysiology and death in septicemic patients. Both IFN-gamma and sIL-2R seem to be predictive of outcome in patients with severe melioidosis and may prove useful in detection of relapse.
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PMID:Immune cell activation in melioidosis: increased serum levels of interferon-gamma and soluble interleukin-2 receptors without change in soluble CD8 protein. 190 47

It is currently hypothesized that the mechanisms of cancer cachexia involve the host's production of inflammatory cytokines, which in turn orchestrate a series of complex interrelated steps that ultimately lead to a chronic state of wasting, malnourishment, and death (see Fig. 1). The metabolic changes seen in the tumor-bearing host are similar, but not identical, to those seen in sepsis and inflammation and appear to result from a generalized response of the host to the stimulus of invasion--the tumor. Although there are likely to be several humoral factors, of either host or tumor origin (see Fig. 1), involved in cancer cachexia, recombinant DNA methodology has provided sufficient amounts of only a few cytokines to enable careful investigation of their cachectic potential. TNF/cachectin has been most extensively studied and appears to play a clear role, because administration of low-dose continuous or escalating doses simulates changes associated with cancer cachexia. In addition, these cachectic changes have been blocked by a specific antisera. IL-1, IL-6, and interferon-gamma all have potential as mediators of cancer cachexia and more work is clearly indicated. It is possible that, given our current understanding of the mechanisms of cancer cachexia, it can be theorized that TNF, which causes many of the manifestations of cancer cachexia, and IL-1 are released by macrophages in response to tumor (see Fig. 1). Interferon-gamma appears to potentiate these effects and may also be necessary for the complete syndrome of cancer cachexia. IL-6 probably is released as another mediator, principally mediating the acute phase response seen in cancer cachexia. Other factors are certain to be involved. Further study into the mechanisms and possible treatment of cancer cachexia is needed, because a large proportion of cancer patients who are incurable by current therapies continue to suffer from this lethal wasting diathesis. Furthermore, specific strategies to reverse the cachectic changes associated with cancer will likely improve antitumor treatment.
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PMID:Mechanisms of cancer cachexia. 202 66

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